Tail Fan Necrosis syndrome in decapod crustaceans: A review.

Lobsters and crayfish in Australasia can develop a condition known as Tail Fan Necrosis (TFN syndrome). Many attempts have been made to find a primary pathogen or link the syndrome to commercial activities, but a solution remains elusive. TFN syndrome is a 'wicked problem', a problem difficult or impossible to solve because of incomplete and contradictory information forming a matrix of potential outcomes with no simple solution.

Formalin-fixed paraffin-embedded (FFPE) samples help to investigate transcriptomic responses in wildlife disease.

Infectious diseases impact numerous organisms. Knowledge of host-pathogen interactions and host responses to infection is crucial for conservation and management. Obtaining this knowledge quickly is made increasingly possible by a variety of genomic approaches, yet, for many species the bottleneck to understanding this, remains access to appropriate samples and data.

Bacteriology & bivalves: Assessing diagnostic tools for geographically remote bivalve populations.

Two sampling approaches for the growth of common or dominant bacteria from bivalve haemolymph were compared: (1) samples processed in the field immediately after collection (field samples), and (2) samples processed in the laboratory at least 24 h after collection (laboratory samples). The sampling approaches were compared on 210 marine bivalve molluscs Paphies subtriangulata and P. australis from two shallow intertidal sites in North Island New Zealand.

An Efficient Tetraplex Surveillance Tool for Salmonid Pathogens.

Fish disease surveillance methods can be complicated and time consuming, which limits their value for timely intervention strategies on aquaculture farms. Novel molecular-based assays using droplet digital Polymerase Chain Reaction (ddPCR) can produce immediate results and enable high sample throughput with the ability to multiplex several targets using different fluorescent dyes. A ddPCR tetraplex assay was developed for priority salmon diseases for farmers in New Zealand including New Zealand -like organism 1 (NZ-RLO1), NZ-RLO2, , and .

Aquatic pathogens and biofouling: pilot study of ostreid herpesvirus 1 translocation by bivalves.

Ostreid herpesvirus 1 (OsHV-1) has caused mass mortalities in Pacific oysters () in Europe, Australia, and New Zealand. While aquaculture-associated movements of infected Pacific oysters are a well-known cause of OsHV-1 spread once established in a region, translocation biofouling of aquaculture equipment or vessels needs further investigation to explain the more distant spread of OsHV-1. Laboratory experiments were designed to test for transmission of OsHV-1 between infected and naïve Pacific oysters a simulated biofouling translocation scenario.